

from core.himesis import Himesis, HimesisPreConditionPatternLHS
import cPickle as pickle
from uuid import UUID

class HMoveOneInputDirectMatchLHS(HimesisPreConditionPatternLHS):
    def __init__(self):
        """
        Creates the himesis graph representing the AToM3 model HMoveOneInputDirectMatchLHS.
        """
        # Flag this instance as compiled now
        self.is_compiled = True
        
        super(HMoveOneInputDirectMatchLHS, self).__init__(name='HMoveOneInputDirectMatchLHS', num_nodes=8, edges=[])
        
        # Add the edges
        self.add_edges([(7, 0), (0, 6), (1, 2), (2, 7), (1, 3), (3, 6), (1, 4), (4, 5)])
        # Set the graph attributes
        self["mm__"] = pickle.loads("""(lp1
S'MT_pre__SimpleDSLTransMM'
p2
aS'MoTifRule'
p3
a.""")
        self["MT_constraint__"] = pickle.loads("""Vif PreNode['1']['classtype'] == PreNode['2']['classtype'] and PreNode['3']['classtype'] != PreNode['1']['classtype']:\u000a    return True\u000aelse:\u000a    return False\u000a
p1
.""")
        self["name"] = """"""
        self["GUID__"] = UUID('20621e40-062b-4b95-a2c8-e803cfaf92bd')
        
        # Set the node attributes
        self.vs[0]["MT_subtypeMatching__"] = False
        self.vs[0]["MT_pre__associationType"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[0]["MT_label__"] = """4"""
        self.vs[0]["MT_subtypes__"] = pickle.loads("""(lp1
.""")
        self.vs[0]["mm__"] = """MT_pre__directLink_S"""
        self.vs[0]["MT_dirty__"] = False
        self.vs[0]["GUID__"] = UUID('6644f8af-c900-479d-9afd-8cbc39617715')
        self.vs[1]["MT_subtypeMatching__"] = False
        self.vs[1]["MT_label__"] = """5"""
        self.vs[1]["MT_subtypes__"] = pickle.loads("""(lp1
.""")
        self.vs[1]["mm__"] = """MT_pre__MatchModel"""
        self.vs[1]["MT_dirty__"] = False
        self.vs[1]["GUID__"] = UUID('28c5ee3c-0c8c-475e-b556-5bfe25e80b32')
        self.vs[2]["MT_subtypeMatching__"] = False
        self.vs[2]["MT_label__"] = """6"""
        self.vs[2]["MT_subtypes__"] = pickle.loads("""(lp1
.""")
        self.vs[2]["mm__"] = """MT_pre__match_contains"""
        self.vs[2]["MT_dirty__"] = False
        self.vs[2]["GUID__"] = UUID('44a67b53-de45-485a-92a1-508d7a587c6e')
        self.vs[3]["MT_subtypeMatching__"] = False
        self.vs[3]["MT_label__"] = """7"""
        self.vs[3]["MT_subtypes__"] = pickle.loads("""(lp1
.""")
        self.vs[3]["mm__"] = """MT_pre__match_contains"""
        self.vs[3]["MT_dirty__"] = False
        self.vs[3]["GUID__"] = UUID('b1800ed9-d7f8-4a7a-80db-772f776e220a')
        self.vs[4]["MT_subtypeMatching__"] = False
        self.vs[4]["MT_label__"] = """8"""
        self.vs[4]["MT_subtypes__"] = pickle.loads("""(lp1
.""")
        self.vs[4]["mm__"] = """MT_pre__match_contains"""
        self.vs[4]["MT_dirty__"] = False
        self.vs[4]["GUID__"] = UUID('5c88508e-7464-41fa-96ce-2b9416b6e345')
        self.vs[5]["MT_pivotOut__"] = """element1"""
        self.vs[5]["MT_subtypeMatching__"] = True
        self.vs[5]["MT_pre__classtype"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[5]["MT_pivotIn__"] = """element1"""
        self.vs[5]["MT_label__"] = """1"""
        self.vs[5]["MT_subtypes__"] = pickle.loads("""(lp1
S'MT_pre__Female_S'
p2
aS'MT_pre__Station_S'
p3
aS'MT_pre__Male_S'
p4
a.""")
        self.vs[5]["mm__"] = """MT_pre__MetaModelElement_S"""
        self.vs[5]["MT_dirty__"] = False
        self.vs[5]["MT_pre__name"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[5]["GUID__"] = UUID('ab6aba60-ed8d-40e3-b370-a35577a7986a')
        self.vs[6]["MT_pivotOut__"] = """element2"""
        self.vs[6]["MT_subtypeMatching__"] = True
        self.vs[6]["MT_pre__classtype"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[6]["MT_pivotIn__"] = """element2"""
        self.vs[6]["MT_label__"] = """2"""
        self.vs[6]["MT_subtypes__"] = pickle.loads("""(lp1
S'MT_pre__Female_S'
p2
aS'MT_pre__Station_S'
p3
aS'MT_pre__Male_S'
p4
a.""")
        self.vs[6]["mm__"] = """MT_pre__MetaModelElement_S"""
        self.vs[6]["MT_dirty__"] = False
        self.vs[6]["MT_pre__name"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[6]["GUID__"] = UUID('320cc86a-f2c9-4edc-94f0-d1e7805ced7d')
        self.vs[7]["MT_subtypeMatching__"] = False
        self.vs[7]["MT_pre__classtype"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[7]["MT_label__"] = """3"""
        self.vs[7]["MT_subtypes__"] = pickle.loads("""(lp1
S'MT_pre__Female_S'
p2
aS'MT_pre__Station_S'
p3
aS'MT_pre__Male_S'
p4
a.""")
        self.vs[7]["mm__"] = """MT_pre__MetaModelElement_S"""
        self.vs[7]["MT_dirty__"] = False
        self.vs[7]["MT_pre__name"] = """
#===============================================================================
# This code is executed when evaluating if a node shall be matched by this rule.
# You can access the value of the current node's attribute value by: attr_value.
# You can access any attribute x of this node by: this['x'].
# If the constraint relies on attribute values from other nodes,
# use the LHS/NAC constraint instead.
# The given constraint must evaluate to a boolean expression.
#===============================================================================

return True
"""
        self.vs[7]["GUID__"] = UUID('c7f32167-3ab1-4cfe-a648-813cbd7d8475')

    def eval_associationType4(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_classtype1(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_name1(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_classtype2(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_name2(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_classtype3(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def eval_name3(self, attr_value, this):
        
        #===============================================================================
        # This code is executed when evaluating if a node shall be matched by this rule.
        # You can access the value of the current node's attribute value by: attr_value.
        # You can access any attribute x of this node by: this['x'].
        # If the constraint relies on attribute values from other nodes,
        # use the LHS/NAC constraint instead.
        # The given constraint must evaluate to a boolean expression.
        #===============================================================================
        
        return True


    def constraint(self, PreNode, graph):
        """
            Executable constraint code. 
            @param PreNode: Function taking an integer as parameter
                            and returns the node corresponding to that label.
        """
        if PreNode['1']['classtype'] == PreNode['2']['classtype'] and PreNode['3']['classtype'] != PreNode['1']['classtype']:
            return True
        else:
            return False

